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Beta blockers Flashcards Preview

Where are beta receptors common?

-heart -skeletal muscle vasculature

2

What does stimulation of beta receptors in skeletal muscle vasculature cause?

an inhibitory action, preventing the entry of calcium that is critical to the contraction of vascular smooth muscle

Activation of beta-2 receptors in skeletal muscle leads to relaxation andincreased perfusion of this muscle group, which is of critical importance in the fight-flight-fright response which characterizes the activity of the sympathetic nervoussystem.

3

What does stimulation of beta-1 receptors in the heart cause?

leads to an acceleration in heart rate and an increase in the force of cardiaccontraction.

4

What does stimulation of beta-1 receptors on juxtaglomerular cells cause?

leads to the release of renin, which converts angiotensinogen to angiotensin I andangiotensin II, a potent vasoconstrictor agent

In this manner, beta-blockers candiminish hypertension due to excessive renin release.

5

What effect can NSAIDs have on renin release?

Chronic use ofnonsteroidal anti-inflammatory drugs will diminish the production of prostaglandinsand can have an adverse effect upon renal perfusion, especially in the elderly, bypreventing the vasoconstrictor actions instigated through renin release via beta-1-agonism.

6

What is intrinsicsympathomimetic activity?

This means that the drugs are actually weak partialagonists that will provide some cardio stimulation but prevent excessive stimulation via the endogenous neurotransmitters epinephrine and norepinephrine

7

What are third-generation b-blockers?

These drugs have effects upon alpha receptors or activate other signaling systems to prevent reflexive vasoconstriction from reducing theclinical effectiveness of beta blockade.

8

How does reflexive vasoconstriction occur?

Recall, baroreceptors will sense the decline in blood pressure produced by beta blockade and will activate alpha-1 mediatedvasoconstriction.

A drug with an extended action will prevent this occurrence

T, although these events are alsoreported, on occasion, with the less lipid soluble agents.

10

What are the classic non-selective 1st gen b-blockers?

-Nadolol-Pindolol-Proprandolol-Timolol

11

Some b-blockers have membrane-depressant (quinidine-like) effects. What does this result in?

Further depression of myocardial contractility and conduction, over and above activity inthe SA and AV nodes, and may be associated with ventricular tachyarrhythmias

12

Which 1st gen b-blockers have membrane stabilizing activity?

propranolol (high lipid soluble) and pindolol weakly

13

What are the 2nd gen B-1 selective blockers?

-acebutolol-atenolol-esmolol-metoprolol

14

What are the 3nd gen non-selective beta blockers with additional actions?

carvedilollabetalol

15

What are the 3nd gen B1-selective beta blockers with additional actions?

-betaxolol-nebivolol

16

Naming convention for b-blockers

Drugs from A to M are beta-1 selective; those from N to T are non-selective, exceptnebivolol.

Those with an unusual spelling “ILOL” or “ALOL” have extended actions inpreventing alpha-mediated reflex vasoconstriction.

17

Which b-blockers have membrane stabilizing activity?

-propranolol-acebutolol-carvedilol

others with higher doses-pindolol, betaxolol, metoprolol, labetalol

18

Beta-blocking drugs with membrane stabilizing activity are used as what?

Antiarrhythmicagents (class II)

19

How do the selective b-blockers stabilize membranes?

bind to and block fast sodium channels that are essential to theinitial depolarizing event in the cardiac cycle decreasing the action potential.

This is separate from their other effectsmediated via beta-1 adrenergic receptors

20

Which drugs have intrinsic sympathomimetic activity?

pindolol and acebutolol have this ability which allows them to slightly reverse the bradycardia and negative inotropy caused by b-bockade by partially mimicking catecholamine function (bad for prevention of secondary MI)

21

Some b-blockers have extended actions to further prevent reflexive vasoconstriction. Name them and what they do.

Nebivolol-NO production, antioxidant activity

Carvedilol- a-1 antagonist, Ca2+ entry blockade, antioxidant activity

Labetaolol- a-1 antagonist

Betaxolol- Ca2+ entry blockade

22

What are some indications for b-blockers?

-HTN-IHD-supraventricular and ventricular arrhythmias-CHF

23

T or F. B-blockers are most effective inpatients with high plasma renin activity

T, Beta-blockers inhibit the stimulation of renin production by catecholamines(mediated by β1 receptors). It is likely, therefore, that drug effect is due, in part, todepression of the renin-angiotensin-aldosterone system

24

Do b-blockers help HTN in those with low renin activity?

Yes, Undoubtedly some of the clinical effect might arise from the inhibition of presynaptic β-adrenoceptors(stimulation of these receptors by epinephrine helps to augment release of NE from the pre-synaptic terminal), this would reduce sympathetic vasoconstrictor nerveactivity.

Which b-blockers are indicated for CHF prevention?

-Metoprolol, bisoprolol, and carvedilol

T or F. Note that abrupt discontinuation of beta-blocker treatment is ill advised

T, doses should be tapered over time. Upregulation in beta-receptor expression can lead to rebound and life-threatening cardiotoxic effects.

29

What are the symptoms of overdose of b-blockers?

Bradycardia and bradyarrhythmia are typical symptoms

30

What happens in b-blocker overdose?

beta receptors lose specificity

31

What happens in overdose of b-blockers with membrane stabilizing activity?

further depression of myocardial contractility and conduction and may cause ventricular tachyarrhythmias

32

What is a side effect of Propranolol (lipid-soluble) overdose?

seizures and coma

33

What happens in overdose of b-blockers with ISA?

tachycardia and HTN

34

What is Sotalol?

an antiarrhythmic agent that also has type III activity and when overdosed can prolong QT interval and may cause tornado de points and ventricular fibrillation

35

What is a common result of OD on third gen b-blockers with additional activity?

direct vasodilation contributes to hypotension

36

What is the typical treatment for OD of a b-blocker?

glucagon or high-dose insulin/glucose

37

Why could a beta blocker induce bronchospasm?

beta-2 adrenergic receptors have an important role in thetreatment of bronchospasm of asthma or COPD. Given that, non-specific betablockers and indeed beta-1 specific blockers (to a lesser extent) have the capacity to induce bronchospasm in such patients by removing endogenous bronchodilatorysignaling.

38

Non-specific beta-blockers are CONTRAINDICATED in asthmatics and their use is cautioned against in patients with COPD

Likewise, beta1-adrenergic selectivebeta-blockers, such as atenolol, should be used with caution in these patients,particularly with high-dose therapy. Remember, receptor specificity is dose-related.